RXM-900-HP-II Linx Technologies Inc, RXM-900-HP-II Datasheet - Page 15

RXM-900-HP-II

Manufacturer Part Number

RXM-900-HP-II

Description

RECEIVER RF 900MHZ 8-CH PACK

Manufacturer

Linx Technologies Inc

Datasheet

1.RXM-900-HP-II.pdf (24 pages)

Specifications of RXM-900-HP-II

Frequency

902MHz ~ 928MHz

Sensitivity

-95dBm

Data Rate - Maximum

50 kbps

Modulation Or Protocol

FM, FSK

Applications

Home / Industrial Automation, Remote Access, Security Alarms

Current - Receiving

18mA

Data Interface

PCB, Through Hole

Antenna Connector

Through Hole

Voltage - Supply

2.7 V ~ 16 V

Operating Temperature

0°C ~ 70°C

Package / Case

18-SIP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

Memory Size

Other names

RXM-900-HP2
RXM-900-HP2

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ANTENNA CONSIDERATIONS

THE TRANSMITTER ANTENNA

THE RECEIVER ANTENNA

The choice of antennas is one of the most critical and often overlooked design

considerations. The range, performance, and legality of an RF link is critically

dependent upon the type of antenna employed. Proper design and matching of

an antenna is a complex task requiring sophisticated test equipment and a

strong background in principles of RF propagation. While adequate antenna

performance can often be obtained by trial and error methods, you may also want

to consider utilizing a professionally designed antenna such as those offered by

Linx. Our low-cost antenna line is designed to ensure maximum performance

and compliance with Part 15 attachment requirements. The purpose of the

following sections is to give you a basic idea of some of the considerations

involved in the design and selection of antennas. For a more comprehensive

discussion please review Linx applications note #00500 “Antennas: Design,

Application, Performance”.

The transmitter antenna allows RF energy to be efficiently radiated from the

output stage into free space. In modular designs such as the HP, a transmitter’s

output power is often slightly higher than the legal limit. This allows a designer to

utilize an inefficient antenna in order to achieve full legal power while meeting

size, cost, or cosmetic objectives. For this reason a transmitter's antenna can

generally be less efficient than the antenna used on the receiver.

the band for which a receiver was designed, and capture as little as possible of

other off-frequency signals. The efficiency of the receiver’s antenna is critical to

maximizing range-performance. Unlike the transmitter antenna, where legal

operation may mandate a reduction in antenna efficiency or attenuation, the

receiver’s antenna should be optimized as much as is practical.

It is usually best to utilize a basic quarter-wave whip for your initial concept

evaluation. Once the prototype product is operating satisfactorily, a production

antenna should be selected to meet the cost, size and cosmetic requirements of

the product.

Maximum antenna efficiency is always

obtained when the antenna is at

resonance. If the antenna is too short,

capacitive reactance is present; if it is

too long, inductive reactance will be

present. The indicator of resonance is

the minimum point in the VSWR curve.

You will see from the following example

that antenna (A) is resonant at too low

a frequency, indicating excessive

length, while antenna (C) is resonant at

too high a frequency, indicating the

antenna is too short. Antenna (B),

however, is “just right.”

A receiving antenna should give its optimum performance at the frequency or in

DESIRED FREQUENCY

RXM-900-HP-II Linx Technologies Inc, RXM-900-HP-II Datasheet - Page 15

RXM-900-HP-II

Specifications of RXM-900-HP-II

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